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Author: Tiju Thomas
Publisher:
ISBN:
Category :
Languages : en
Pages : 158
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Book Description
Gallium Nitride is a III-V compound semiconductor that has attracted a lot of interest among both applied and basic researchers because of its potential applications in optoelectronic, high power and high frequency devices. However, many questions about the material remain unanswered. In this thesis, we will present our investigation of GaN. We will first describe an ammonothermal method for the synthesis of undoped and rare earth doped GaN powders. Using careful observations and calculations, we show that the powder growth is primarily a liquid phase phenomenon. We also present a chemical method to achieve luminescence enhancement in ammonothermally grown Eu:GaN powders. Based on arguments drawn from the surface chemistry and XRD of these samples, we conclude that elimination of dark mixed oxides from the powder results in the observed luminescence enhancement. We also demonstrate a nano Eu:GaN synthesis process using a simple mechanical topdown method. The optical properties of nano Eu:GaN prepared in this manner is comparable to that of the bulk material. Based on a similar mechanical process we synthesized nano Er:GaN powders that emit in the C band (1.55 m). The mechanism involved in the luminescence of rare earth doped GaN is investigated using thermal quenching and high pressure studies. Our results suggest that an exciton bound to rare earth structured isovalent impurity (RESI) is responsible for luminescence in these materials. Luminescence quenching and pressure dependent photoluminescence enhancement in RE:GaN can be explained based on this model. Our results clearly suggest that thermal quenching can be undone by application of pressure. These powders are discovered to be fairly radiation hard as well. In the last section of this thesis, we will present an electrophoretic technique to deposit nano GaN on a fluorine doped tin oxide coated glass substrate. The technique can be easily adapted to grow layered structures that can find application in optical fibers and as a laser gain medium. Preliminary results for highly densified GaN ceramic obtained using a hot-press process are discussed. These results suggest that further densification is necessary for achieving a completely transparent GaN ceramic made out of ammonothermally synthesized GaN powders.
Author: Tiju Thomas
Publisher:
ISBN:
Category :
Languages : en
Pages : 158
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Book Description
Gallium Nitride is a III-V compound semiconductor that has attracted a lot of interest among both applied and basic researchers because of its potential applications in optoelectronic, high power and high frequency devices. However, many questions about the material remain unanswered. In this thesis, we will present our investigation of GaN. We will first describe an ammonothermal method for the synthesis of undoped and rare earth doped GaN powders. Using careful observations and calculations, we show that the powder growth is primarily a liquid phase phenomenon. We also present a chemical method to achieve luminescence enhancement in ammonothermally grown Eu:GaN powders. Based on arguments drawn from the surface chemistry and XRD of these samples, we conclude that elimination of dark mixed oxides from the powder results in the observed luminescence enhancement. We also demonstrate a nano Eu:GaN synthesis process using a simple mechanical topdown method. The optical properties of nano Eu:GaN prepared in this manner is comparable to that of the bulk material. Based on a similar mechanical process we synthesized nano Er:GaN powders that emit in the C band (1.55 m). The mechanism involved in the luminescence of rare earth doped GaN is investigated using thermal quenching and high pressure studies. Our results suggest that an exciton bound to rare earth structured isovalent impurity (RESI) is responsible for luminescence in these materials. Luminescence quenching and pressure dependent photoluminescence enhancement in RE:GaN can be explained based on this model. Our results clearly suggest that thermal quenching can be undone by application of pressure. These powders are discovered to be fairly radiation hard as well. In the last section of this thesis, we will present an electrophoretic technique to deposit nano GaN on a fluorine doped tin oxide coated glass substrate. The technique can be easily adapted to grow layered structures that can find application in optical fibers and as a laser gain medium. Preliminary results for highly densified GaN ceramic obtained using a hot-press process are discussed. These results suggest that further densification is necessary for achieving a completely transparent GaN ceramic made out of ammonothermally synthesized GaN powders.
Author: Jonathan Huai-Tse Tao
Publisher:
ISBN: 9781124339528
Category :
Languages : en
Pages : 165
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Book Description
A three-step solution-based process had been used synthesize powders of GaN, AlN and their alloys. The complete solid solubility and tunable nature of these nitride band gaps in the visible spectrum were the motivation of these studies due to their application in solid state lighting. Energy dispersive X-ray spectroscopy confirmed the reduction in oxygen content for the GaN powders to as low as 4 atom % with an 8 % oxygen to nitrogen ratio. Relative to commercial GaN powders, the bandedge of the powders synthesized by such approach also shifted to higher energy, which indicated fewer defects, as observed from reflectance measurements. Inspired by the use of rare-earth elements as color emitters in fluorescent lamp phosphors, these elements were also used as activators in our nitride material. Visible emission was demonstrated through photoluminescence measurements in AlN powders activated with rare-earth elements Eu3, Tb3, Tm3+. These ions showed emission in the red, green and blue regions of the visible spectrum, respectively. Eu3+ and Tb3+ co-activation was also observed in an AlN sample that indicated successful energy transfer from the host to sensitizer, and subsequently to another activator. Tb3+ emission was observed under cathodoluminescence in GaN powders synthesized by the same method, and a concentration study showed no effect of concentration quenching up to 8 atom %. Using the same source powder, a pulsed-laser deposited thin film was fabricated that showed both band gap emission and activator-related emission, suggesting a reduction of defects when the powders were deposited as thin films. Additionally, GaN:Tb3+ films were also fabricated using metallorganic vapor phase epitaxy using precursors with and without oxygen ligands. Tb3+ emission was only observed in the sample fabricated from the precursor with oxygen ligand, suggestion that oxygen may be required for effective rare earth luminescence. Finally, Ga1-xAl/xN alloy powders (x = 0.5) and Ga1-x-yAl/xDy/yN (x = 0.10, 0.30, y = 0.01) powders were synthesized using the solution method while incorporating a stainless steel pressure vessel, which increased the synthesis pressure and aided the formation of a single phase hydroxide precursor. This in turn produced a single phase alloy nitride in the final step. Dy3+ emission that was not observed in GaN powders was also observed in the Ga1-x-yAl/xDy/yN powder. This suggested that the incorporation of aluminum enabled rare-earth emission in the nitrides synthesized for these experiments. However, attempts to sputter nitride alloy thin films via radio frequency sputtering were unsuccessful; only very minor peak shifts in the X-ray diffraction patterns were observed. Nevertheless, energy dispersive X-ray spectroscopy indicates the presence of Al in the Ga0.5Al0.5N film deposited on a Si substrate. This suggested that Al atoms may have segregated from the alloy lattice during the deposition process, with only a small amount of Al atoms incorporated into the GaN lattice.
Author: Stephen R. McHale
Publisher:
ISBN:
Category : Rare earths
Languages : en
Pages : 318
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Author: V. Dierolf
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 318
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Book Description
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Author: Nathaniel T. Woodward
Publisher:
ISBN: 9781124657868
Category :
Languages : en
Pages : 186
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Book Description
Understanding the excitation mechanisms of rare earth ions in materials used for optoelectronic applications is key to achieving more efficient and versatile devices based on these material systems. Of particular importance to applications involving light emission is identifying the most efficient excitation pathways of the rare earth dopant. Such a task is complicated by the presence of multiple rare earth environments often observed in such materials which have the potential to have drastically different relative excitation characteristics. Furthermore, due to the recent interest in dilute ferromagnetic semiconductors, the three systems studied have shown to all exhibit room temperature ferromagnetic behavior. This has led to several questions on the mechanism behind the interaction of ions which cause the ferromagnetism, and by which our spectroscopic techniques allow for unique investigations.
Author: A. K. Tyagi
Publisher: Springer Nature
ISBN: 9811618038
Category : Technology & Engineering
Languages : en
Pages : 856
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Book Description
This book presents state-of-the-art coverage of synthesis of advanced functional materials. Unconventional synthetic routes play an important role in the synthesis of advanced materials as many new materials are metastable and cannot be synthesized by conventional methods. This book presents various synthesis methods such as conventional solid-state method, combustion method, a range of soft chemical methods, template synthesis, molecular precursor method, microwave synthesis, sono-chemical method and high-pressure synthesis. It provides a comprehensive overview of synthesis methods and covers a variety of materials, including ceramics, films, glass, carbon-based, and metallic materials. Many techniques for processing and surface functionalization are also discussed. Several engineering aspects of materials synthesis are also included. The contents of this book are useful for researchers and professionals working in the areas of materials and chemistry.
Author: Michael Wraback
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Wojciech M. Jadwisieńczak
Publisher:
ISBN:
Category : Gallium nitride
Languages : en
Pages : 0
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Author: Brandon Mitchell
Publisher:
ISBN: 9781321224597
Category :
Languages : en
Pages : 222
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Book Description
Wide band gap semiconductors doped with rare earth ions (RE) have shown great potential for applications in optoelectronics, photonics, and spintronics. The 1.54mum Erbium (Er) emission has been extensively utilized in optical fiber communications, and Europium (Eu) is commonly used as a red color component for LEDs and fluorescence lamps. For the realization of spintronic-type devices, a dilutely doped semiconductor that exhibits room temperature ferromagnetic behavior would be desirable. Such behavior has been observed in GaN:Er. Furthermore, it was demonstrated that strain may play an important role in the control of this ferromagnetism; however, this requires further investigation.
Author: sameh ibrahim ahmed" "aly
Publisher:
ISBN:
Category :
Languages : ar
Pages : 161
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